JPH11331920A - Device and method for controlling home location register and recording medium recording program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To recover a normal state when congestion occurs by concentrating access from mobile exchange station to a specified active home location register(HLR) on a portable telephone network or PHS network on which the HLR is composed of several active HLR and one reserve HLR. SOLUTION: In order to monitor the number of received transactions at active HLR 101-103, a reserve HLR 100 periodically checks the health of each active HLR and corresponding to this check, each active HLR investigates the number of received processing waiting transactions. When the state of that number exceeding a threshold value is continued for fixed time, a congested state is judged and at such a time, one part of the destinations of access from mobile exchange stations is switched from the active HLR in that congested state to the reserve HLR and the number of access to the active HLR is temporarily decreased so that the normal state can be recovered from the congested state.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable telephone, a personal handy phone system (PHS), etc., which is used when a congestion occurs in a home location register (HLR).
The present invention relates to a control device, a method, and a recording medium for recording a program of a home position register for controlling R.

[0002]

2. Description of the Related Art Conventionally, with the spread of mobile phones and personal handy phone systems (PHS), lines and base stations have been added to rapidly increase the number of subscribers and expand the use area.
Also, the number of value-added services provided to meet the diverse needs of subscribers is increasing. As a result, access traffic to the mobile switching center and the home location register (HLR) is rapidly increasing. For this reason, the switching network is constructing a system in which the equipment is used more efficiently after estimating the traffic at the peak time.

[0003]

However, when a large amount of unpredictable traffic suddenly occurs,
The access traffic is temporarily concentrated on the HLR serving as the subscriber database, causing node congestion in the HLR. In the future, as the number of subscribers and value-added services further increases, it is necessary to construct an efficient and effective mobile communication network, but there is no effective method for controlling the congestion of the HLR. .

An object of the present invention is to provide a home position register control device, a method, and a recording medium on which a program can be normally accessed even if congestion occurs in the HLR.

[0005]

According to a first aspect of the present invention, there is provided a monitoring means for monitoring the number of accesses to a working home position register from a switching center, and the monitoring means monitors the number of accesses to the working home position register. Control means for judging a congestion state when the number of accesses exceeds a predetermined value for a predetermined period of time and switching a part of the access destination from the exchange from the current home position register to the spare home position register; It is characterized by the following.

According to a second aspect of the present invention, in the first aspect of the present invention, when the access is in a normal state, the control means
It is characterized in that the spare home register periodically collects and holds the subscriber data from the current home location register.

According to a third aspect of the present invention, in the second aspect of the present invention, when the control means recovers from the congestion state,
The subscriber data collected in the spare home position register is fed back to the working home position register.

According to a fourth aspect of the present invention, there is provided a monitoring step for monitoring the number of accesses to the working home position register from the exchange, and a state where the number of accesses monitored by the monitoring step exceeds a predetermined value continues for a predetermined time. A control step of judging a congestion state when the switching is performed, and controlling to switch a part of the access destination from the exchange from the working home position register to the protection home position register.

According to a fifth aspect of the present invention, in the fourth aspect of the invention, when access is normal, the spare home register periodically collects and holds subscriber data from the current home location register. It is characterized by putting.

The invention according to claim 6 is characterized in that, in the invention according to claim 5, the recovery home position register feeds back the collected data to the working home position register when the congestion state is restored.

According to a seventh aspect of the present invention, there is provided a monitoring procedure for monitoring the number of accesses to the working home position register from the exchange, and a state in which the number of accesses monitored by the monitoring procedure exceeds a predetermined value continues for a predetermined time. Then, a control procedure is performed in which a congestion state is determined, and a part of the access destination from the exchange is switched from the working home position register to the protection home position register.

According to an eighth aspect of the present invention, in the invention of the seventh aspect, the control procedure is such that when the access is in a normal state,
It is characterized in that the spare home register periodically collects and holds the subscriber data from the current home location register.

According to a ninth aspect of the present invention, in the invention of the eighth aspect, when the control procedure is restored from the congestion state,
The data collected in the spare home position register is fed back to the current home position register.

[0014]

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. In the embodiment of the present invention, a PH having one spare HLR is used for several working HLRs.
In the HS network, subscriber data is distributed and accommodated in a plurality of active HLRs in a certain range of subscriber number (PSN) units, and in each active HLR, a plurality of subscriber data blocks in a smaller range of PSN units. It is divided into and managed. The backup HLR maintains a copy of all subscriber data by performing periodic subscriber data collection from all active HLRs. Reserve HLR
Monitors the number of accesses from the mobile communication switching center to the working HLR, and determines that the working HLR is congested if the number of accesses exceeds the threshold for a certain period of time.

When a congestion state occurs in the working HLR, the number of accesses to the working HLR in the congestion state is changed by switching a part of the access destination from the mobile communication switching center from the working HLR in the congestion state to the backup HLR. Is temporarily reduced to restore the working HLR from the congestion state to the normal state.

FIG. 1 shows a mechanism for detecting congestion by performing a health check from the backup HLR to the working HLR. FIG.
In the embodiment, the control device of the home position register according to the embodiment of the present invention includes a spare HLR 100 and a working HLR 101.
To 103, the LAN 104, and the CP that controls each HLR
U105 and a recording medium 106 for storing a control program for executing a processing procedure of the CPU 105 described later. The recording medium used here is an optical disk, a magneto-optical disk, a semiconductor memory,
A magnetic recording medium or the like may be used.

FIG. 2 is a block diagram of the mobile communication switching center to the HLR.
The example of routing by GT of CCP is shown. The mobile switching center uses the common channel signaling system No. Using the global title (GT) translation function of the signal connection control unit (SCCP) of the SS7 (SS7) and referring to the GT routing table, the PS
Translation from N to the station code of the access destination HLR,
The HLR accommodating the target subscriber data is specified, the HLR is accessed, and the subscriber data is read or updated.

In the PHS network, since the subscriber number is a personal number, it is assumed that incoming calls concentrate on a specific subscriber number and a congestion state of an exchange or a line occurs as in a public network. Hateful. Rather, when an enormous amount of subscriber call requests are generated within a short period of time due to some factor, it is considered that access concentrates on the HLR, which is a subscriber database, and the node becomes congested in the HLR.
In this case, there is a possibility that a congestion state may occur simultaneously not only in one HLR but also in a plurality of HLRs. Therefore, here, a method of using a spare HLR as an access traffic distribution destination HLR in a plurality of HLRs at the same time is shown as an example.

Next, an operation example in the embodiment of the present invention will be described. In FIG. 1, the spare HLR 100 is
In order to monitor the number of received transactions of the active HLRs 101 to 103, all the active HLRs 1
A health check signal is periodically transmitted to 01 to 103. Each of the working HLRs 101 to 103 is a spare HLR 1
When the health check signal from 00 is received, the number of transactions waiting to be processed by the SS7 processing unit is read and returned to the backup HLR 100 by a health check response signal. When receiving a health check response signal from the active HLRs 101 to 103, the standby HLR 100 checks whether the number of transactions waiting to be processed has exceeded the threshold value. Judge as a congestion state.

In FIG. 2, a mobile switching center (MSC)
When an access request for the purpose of preliminary control to the HLR is generated, the mobile communication application unit (MAP) of SS7 edits the signal information of the request operation message according to the request information from the application unit. At this time, the PSN is set in the SCCP parameter corresponding to the address information of the destination node called GT. The MAP passes the signal information of the request operation message to the SCCP via the transaction function application unit (TCAP) of SS7. S
The CCP refers to the GT routing table, translates the PSN into the station code (PC) of the HLR of the subscriber data accommodating destination, and sends the signal information assigned to the PC as the routing destination PC to the message transfer unit (MTP) of the SS7. Take over,
The MTP sends a signaling message to the designated destination node, ie, the HLR.

When the HLR receives a signal message from the mobile switching center, it first refers to the routing label in the MTP, and if the destination PC is its own PC, passes the signal information to the SCCP. The SCCP determines the GT of the SCCP destination address by referring to the GT routing table.
If the translated PC is the own PC, the received signal information is passed to the MAP via the TCAP.

FIG. 3 is a conceptual diagram showing distribution of access traffic between HLRs by performing partial routing switching. FIG. 3A shows a normal state, and FIG. 3B shows a state in which the partial routine switching is performed.
Access traffic 1b, 2b, 3b is distributed to R100. MSC indicates a mobile switching center.

FIG. 4 shows a signal sequence between the mobile switching center, the working HLR and the backup HLR when the partial routing is switched. In FIG. 4, the spare HLR is the working HL.
When detecting the occurrence of congestion in the R, it is impossible for the backup HLR to collect the latest subscriber data from the working HLR in the congested state, and performs the partial routing switch immediately after the detection of the congestion to perform the access. Since it is necessary to distribute traffic and restore the working HLR in a congested state to a normal state, when performing partial routing switching of the backup HLR, the service is performed using the subscriber data collected periodically.

FIG. 5 shows a signal sequence between the mobile switching center, the working HLR, and the backup HLR when the partial routing switchback is performed. In FIG. 5, by performing the partial routing switching, the mobile communication switching center issues a call to the backup HLR.
When a request MAP operation message is transmitted and subscriber data access is performed, the backup HLR becomes active HLR.
And periodically update the subscriber data collected for backup. When switching back to the working HLR recovered from the congestion state, it is necessary to feed back the updated part of the subscriber data to the original subscriber data held by the working HLR.

The feedback of the subscriber data from the backup HLR to the working HLR is based on the partial routing switching target P.
All subscriber data in the SN range, that is, a fixed PSN
This is performed by transferring a file for each subscriber data block subdivided in a range unit. During the file transfer of the subscriber data block, the spare HLR temporarily inhibits access to the feedback target subscriber data in order to prevent the feedback target subscriber data from being updated during the file transfer.

In the present invention, the method of partially switching the access to the congested HLR to the spare HLR has been described. Apart from this, the access to the congested HLR is regulated for a certain time. There are ways. However, when this method is adopted in a mobile telephone network or a PHS network, access from a mobile communication switching center to a congested HLR is reduced. The re-established subscriber is confused and repeats the call, causing huge wasteful traffic between the mobile station, the base station and the mobile switching center, which may cause congestion in this section or node. , Undesirable.

[0027]

As is apparent from the above description, according to the present invention, when the HLR congestion occurs, the spare connection service can be continued without restricting the access from the mobile communication switching center to the HLR. The spare HLR, which is rarely used except for the purpose of replacement when a serious failure occurs in the working HLR, is used as a mirror database of the working HLR temporarily when congestion occurs in the HLR, thereby enabling effective use of facilities. Also leads.

According to the present invention, the spare HL is normally operated.
Since the R periodically collects and holds the subscriber data from the working HLR, it is possible to quickly cope with any time when the congestion state of the HLR occurs.

Further, according to the present invention, the subscriber data collected by the backup HLR after the restoration of the congestion state is fed back to the working HLR, whereby the access traffic after the restoration can be normally recovered.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a control device of a home position register according to an embodiment of the present invention.

FIG. 2 GT of SCCP from mobile switching center to HLR
FIG. 6 is a block diagram showing an example of routing according to FIG.

FIG. 3 is a block diagram showing the concept of distributing access traffic between HLRs by performing partial routing switching.

FIG. 4 is a sequence chart showing a signal sequence between the mobile communication switching center, the working HLR, and the backup HLR when performing partial routing switching.

FIG. 5 is a sequence chart showing a signal sequence between the mobile switching center, the working HLR, and the backup HLR when partial routing switchback is performed.

[Explanation of symbols]

 Reference Signs List 100 spare HLR 101 to 103 working HLR 104 LAN 105 CPU 106 recording medium

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[Procedure amendment]

[Submission date] June 11, 1999

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

Patent application title: Control device of home position register, method and recording medium recording program

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable telephone, a personal handy phone system (PHS), etc., which is used when a congestion occurs in a home location register (HLR).
The present invention relates to a control device, a method, and a recording medium for recording a program of a home position register for controlling R.

[0002]

2. Description of the Related Art Conventionally, with the spread of mobile phones and personal handy phone systems (PHS), lines and base stations have been added to rapidly increase the number of subscribers and expand the use area.
Also, the number of value-added services provided to meet the diverse needs of subscribers is increasing. As a result, access traffic to the mobile switching center and the home location register (HLR) is rapidly increasing. For this reason, the switching network is constructing a system in which the equipment is used more efficiently after estimating the traffic at the peak time.

[0003]

However, when a large amount of unpredictable traffic suddenly occurs,
The access traffic is temporarily concentrated on the HLR serving as the subscriber database, causing node congestion in the HLR. In the future, as the number of subscribers and value-added services further increases, it is necessary to construct an efficient and effective mobile communication network, but there is no effective method for controlling the congestion of the HLR. .

An object of the present invention is to provide a home position register control device, a method, and a recording medium on which a program can be normally accessed even if congestion occurs in the HLR.

[0005]

Means for Solving the Problems] To solve the above problems
In addition, the invention according to claim 1 is a system in which the current home position from the exchange is used.
Monitoring means for monitoring the number of accesses to the register, and monitoring
The number of accesses monitored by the means has exceeded a specified value
If the state continues for a certain period of time, it is determined
A part of the access destination from the station is the working home position register
Control means for switching to a spare home position register from
Control means, when access is in a normal state,
Subscriber data from working home location register to home register
Data is periodically collected and retained.
You.

[0006] The invention according to claim 2 is the invention according to claim 1.
In the description, the control means, when recovered from the congestion state,
The subscriber data collected in the spare home location register is
Feedback to the home position register
Sign.

[0007] The present invention according to claim 3 is a system which is used by an exchange.
Monitoring process for monitoring the number of accesses to the home position register
And the number of accesses monitored by the monitoring process
When the exceeded state continues for a certain period of time, the
Some of the access destinations from the exchange to the working home location
Switch from register to spare home position register
And a control step of controlling the
In the normal state, the current home position is stored in the spare home register.
Periodically collect and retain subscriber data from
It is characterized in that it is controlled so that:

[0008] The invention according to claim 4 provides the invention according to claim 3.
In the description, when the control process is restored from the congestion state,
The subscriber data collected in the spare home location register is
To feed back to home position register
It is characterized by doing.

[0009] The invention according to claim 5 is an embodiment of the present invention which is used from an exchange.
Monitoring procedure for monitoring the number of accesses to the home position register
And the number of accesses monitored by the monitoring procedure
When the exceeded state continues for a certain period of time, the
Some of the access destinations from the exchange to the working home location
Control to switch from the register to the spare home position register
And the control procedure is such that the access is in a normal state.
The spare home register is the current home position register
Control to periodically collect and maintain subscriber data
It is characterized by doing.

[0010] The invention according to claim 6 is the invention according to claim 5.
In the description, when the control procedure recovers from the congestion state,
The data collected in the spare home position register is
Control that feeds back to the
And features.

[0011]

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. In the embodiment of the present invention, a PH having one spare HLR is used for several working HLRs.
In the HS network, subscriber data is distributed and accommodated in a plurality of active HLRs in a certain range of subscriber number (PSN) units, and in each active HLR, a plurality of subscriber data blocks in a smaller range of PSN units. It is divided into and managed. The backup HLR maintains a copy of all subscriber data by performing periodic subscriber data collection from all active HLRs. Reserve HLR
Monitors the number of accesses from the mobile communication switching center to the working HLR, and determines that the working HLR is congested if the number of accesses exceeds the threshold for a certain period of time.

When a congestion state occurs in the active HLR, a part of the access destination from the mobile communication switching center is switched from the congested active HLR to the backup HLR, whereby the number of accesses to the congested active HLR is increased. Is temporarily reduced to restore the working HLR from the congestion state to the normal state.

FIG. 1 shows a mechanism of detecting congestion by performing a health check from a backup HLR to a working HLR. FIG.
In the embodiment, the control device of the home position register according to the embodiment of the present invention includes a spare HLR 100 and a working HLR 101.
To 103, the LAN 104, and the CP that controls each HLR
U105 and a recording medium 106 for storing a control program for executing a processing procedure of the CPU 105 described later. The recording medium used here is an optical disk, a magneto-optical disk, a semiconductor memory,
A magnetic recording medium or the like may be used.

FIG. 2 is a block diagram of a mobile switching center to the HLR.
The example of routing by GT of CCP is shown. The mobile switching center uses the common channel signaling system No. Using the global title (GT) translation function of the signal connection control unit (SCCP) of the SS7 (SS7) and referring to the GT routing table, the PS
Translation from N to the station code of the access destination HLR,
The HLR accommodating the target subscriber data is specified, the HLR is accessed, and the subscriber data is read or updated.

[0015] In the PHS network, since the subscriber number is a personal number, it is assumed that incoming calls concentrate on a specific subscriber number and a congestion state of an exchange or a line occurs as in a public network. Hateful. Rather, when an enormous amount of subscriber call requests are generated within a short period of time due to some factor, it is considered that access concentrates on the HLR, which is a subscriber database, and the node becomes congested in the HLR.
In this case, there is a possibility that a congestion state may occur simultaneously not only in one HLR but also in a plurality of HLRs. Therefore, here, a method of using a spare HLR as an access traffic distribution destination HLR in a plurality of HLRs at the same time is shown as an example.

Next, an operation example according to the embodiment of the present invention will be described. In FIG. 1, the spare HLR 100 is
In order to monitor the number of received transactions of the active HLRs 101 to 103, all the active HLRs 1
A health check signal is periodically transmitted to 01 to 103. Each of the working HLRs 101 to 103 is a spare HLR 1
When the health check signal from 00 is received, the number of transactions waiting to be processed by the SS7 processing unit is read and returned to the backup HLR 100 by a health check response signal. When receiving a health check response signal from the active HLRs 101 to 103, the standby HLR 100 checks whether the number of transactions waiting to be processed has exceeded the threshold value. Judge as a congestion state.

In FIG. 2, a mobile switching center (MSC)
When an access request for the purpose of preliminary control to the HLR is generated, the mobile communication application unit (MAP) of SS7 edits the signal information of the request operation message according to the request information from the application unit. At this time, the PSN is set in the SCCP parameter corresponding to the address information of the destination node called GT. The MAP passes the signal information of the request operation message to the SCCP via the transaction function application unit (TCAP) of SS7. S
The CCP refers to the GT routing table, translates the PSN into the station code (PC) of the HLR of the subscriber data accommodating destination, and sends the signal information assigned to the PC as the routing destination PC to the message transfer unit (MTP) of the SS7. Take over,
The MTP sends a signaling message to the designated destination node, ie, the HLR.

When the HLR receives a signal message from the mobile switching center, it first refers to the routing label in the MTP, and if the destination PC is its own PC, takes over the signal information to the SCCP. The SCCP determines the GT of the SCCP destination address by referring to the GT routing table.
If the translated PC is the own PC, the received signal information is passed to the MAP via the TCAP.

FIG. 3 is a conceptual diagram showing distribution of access traffic between HLRs by performing partial routing switching. FIG. 3A shows a normal state, and FIG. 3B shows a state in which the partial routine switching is performed.
Access traffic 1b, 2b, 3b is distributed to R100. MSC indicates a mobile switching center.

FIG. 4 shows a signal sequence between the mobile switching center, the working HLR and the backup HLR when the partial routing is switched. In FIG. 4, the spare HLR is the working HL.
When detecting the occurrence of congestion in the R, it is impossible for the backup HLR to collect the latest subscriber data from the working HLR in the congested state, and performs the partial routing switch immediately after the detection of the congestion to perform the access. Since it is necessary to distribute traffic and restore the working HLR in a congested state to a normal state, when performing partial routing switching of the backup HLR, the service is performed using the subscriber data collected periodically.

FIG. 5 shows a signal sequence between the mobile switching center, the working HLR and the backup HLR when the partial routing reversion is performed. In FIG. 5, by performing the partial routing switching, the mobile communication switching center issues a call to the backup HLR.
When a request MAP operation message is transmitted and subscriber data access is performed, the backup HLR becomes active HLR.
And periodically update the subscriber data collected for backup. When switching back to the working HLR recovered from the congestion state, it is necessary to feed back the updated part of the subscriber data to the original subscriber data held by the working HLR.

The feedback of the subscriber data from the backup HLR to the working HLR is based on the partial routing switching target P.
All subscriber data in the SN range, that is, a fixed PSN
This is performed by transferring a file for each subscriber data block subdivided in a range unit. During the file transfer of the subscriber data block, the spare HLR temporarily inhibits access to the feedback target subscriber data in order to prevent the feedback target subscriber data from being updated during the file transfer.

In the present invention, the method of partially switching the access to the congested HLR to the spare HLR has been described, but separately from this, the access to the congested HLR is regulated for a certain period of time. There are ways. However, when this method is adopted in a mobile telephone network or a PHS network, access from a mobile communication switching center to a congested HLR is reduced. The re-established subscriber is confused and repeats the call, causing huge wasteful traffic between the mobile station, the base station and the mobile switching center, which may cause congestion in this section or node. , Undesirable.

[0024]

As is apparent from the above description, according to the present invention, when the HLR congestion occurs, the spare connection service can be continued without restricting the access from the mobile communication switching center to the HLR. The spare HLR, which is rarely used except for the purpose of replacement when a serious failure occurs in the working HLR, is used as a mirror database of the working HLR temporarily when congestion occurs in the HLR, thereby enabling effective use of facilities. Also leads.

Further, according to the present invention, the spare HL is normally
Since the R periodically collects and holds the subscriber data from the working HLR, it is possible to quickly cope with any time when the congestion state of the HLR occurs.

Further, according to the present invention, the subscriber data collected by the backup HLR after the restoration of the congestion state is fed back to the working HLR, whereby the access traffic after the restoration can be normally recovered.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a control device of a home position register according to an embodiment of the present invention.

FIG. 2 GT of SCCP from mobile switching center to HLR
FIG. 6 is a block diagram showing an example of routing according to FIG.

FIG. 3 is a block diagram showing the concept of distributing access traffic between HLRs by performing partial routing switching.

FIG. 4 is a sequence chart showing a signal sequence between the mobile communication switching center, the working HLR, and the backup HLR when performing partial routing switching.

FIG. 5 is a sequence chart showing a signal sequence between the mobile switching center, the working HLR, and the backup HLR when partial routing switchback is performed.

[Description of Signs] 100 Spare HLR 101-103 Active HLR 104 LAN 105 CPU 106 Recording Medium

Claims (9)

[Claims] 1. A monitoring means for monitoring the number of accesses to a working home position register from an exchange, and a congestion state when the number of accesses monitored by the monitoring means exceeds a predetermined value for a predetermined time. Control means for switching a part of the access destination from the exchange from the working home position register to the spare home position register. 2. The controller according to claim 1, wherein when the access is in a normal state, the spare home register periodically collects and holds subscriber data from the current home location register. The control device of the home position register according to the above. 3. The system according to claim 2, wherein the control unit feeds back the collected subscriber data to the protection home position register to the working home position register when the congestion state is restored. Home position register controller. 4. A monitoring step for monitoring the number of accesses to the working home position register from the exchange, and a congestion state when the number of accesses monitored by the monitoring step exceeds a predetermined value for a certain period of time. And controlling the switching of a part of the access destination from the exchange from the working home position register to the protection home position register. 5. The protection home register according to claim 4, wherein when the access is in a normal state, the backup home register periodically collects and holds subscriber data from the current home location register. Home position register control method. 6. The home position register control method according to claim 5, wherein the recovery home position register feeds back the collected data to the working home position register when the congestion state is restored. . 7. A monitoring procedure for monitoring the number of accesses to the working home position register from the exchange, and a congestion state when the number of accesses monitored by the monitoring procedure exceeds a predetermined value for a certain period of time. And switching the part of the access destination from the exchange to the spare home position register from the working home position register. 8. The control procedure according to claim 7, wherein when the access is in a normal state, the spare home register periodically collects and holds subscriber data from the current home location register. A recording medium on which the program described above is recorded. 9. The program according to claim 8, wherein, when the control procedure recovers from the congestion state, the collected data is fed back to the spare home position register to the working home position register. The recording medium on which it was recorded.